. "Discrete-time signals and systems"@en . . "6" . "Objectives and Contextualisation\nThe processing of sequences of numbers, also known as discrete signals, is a task present in virtually all information transmission, processing and storage systems, even when the source signals can be analog. The aim of the course is to provide the student with the fundamental knowledge to describe the discrete signals and the systems that deal with them, both in the temporal domain and in the frequency or transformed domains.\n\nThe specific goals are:\n\nTo understand the representation of discrete signals over time, as well as their properties.\nTo analyze the systems for the discrete signals processing over time and propose alternative ways of describing them.\nTo represent signals and systems in transformed domains: in the frequency domain and in the Z domain.\nTo design basic digital filters.\nTo relate discrete signals with the periodic sampling of analog signals and with their reconstruction.\nTo apply the Matlab programming environment to solve digital signal processing problems.\nTo characterize random discrete signals.\n\nCompetences\nElectronic Engineering for Telecommunication\nCommunication\nDevelop personal attitude.\nDevelop personal work habits.\nDevelop thinking habits.\nDraft, develop and sign projects in the field of telecommunications engineering designed to conceive, develop or exploit electronic systems\nLearn new methods and technologies, building on basic technological knowledge, to be able to adapt to new situations.\nResolve problems with initiative and creativity. Make decisions. Communicate and transmit knowledge, skills and abilities, in awareness of the ethical and professional responsibilities involved in a telecommunications engineer's work.\nWork in a multidisciplinary group and in a multilingual environment, and communicate, both in writing and orally, knowledge, procedures, results and ideas related with telecommunications and electronics\nWork in a team.\nTelecommunication Systems Engineering\nCommunication\nDevelop personal attitude.\nDevelop personal work habits.\nDevelop thinking habits.\nDraft, develop and sign projects in the field of telecommunications engineering that, depending on the speciality, are aimed at the conception, development or exploitation of telecommunication and electronic networks, services and applications.\nLearn new methods and technologies, building on basic technological knowledge, to be able to adapt to new situations.\nResolve problems with initiative and creativity. Make decisions. Communicate and transmit knowledge, skills and abilities, in awareness of the ethical and professional responsibilities involved in a telecommunications engineer's work.\nWork in a multidisciplinary group and in a multilingual environment, and communicate, both in writing and orally, knowledge, procedures, results and ideas related with telecommunications and electronics.\nWork in a team.\nLearning Outcomes\nAnalyse and design digital signal processing diagrams.\nCommunicate efficiently, orally and in writing, knowledge, results and skills, both professionally and to non-expert audiences.\nDevelop and seek basic signal processing applications other than for communications.\nDevelop curiosity and creativity.\nDevelop independent learning strategies.\nDevelop systemic thinking.\nDevelop the capacity for analysis and synthesis.\nDevise and seek basic applications for signal processing other than communications.\nEfficiently use ICT for the communication and transmission of ideas and results.\nIllustrate signal and communication processing algorithms using a basic mathematical formalism.\nIllustrate the algorithms of signal processing and communications using a basic mathematical formalism.\nMake basic use of computer applications in digital processing.\nMake one's own decisions.\nTransfer concepts of discreet mathematics to telecommunications, in the field of the processing of numerical series by means of digital filters.\nTransfer concepts of discrete mathematics to telecommunications, in the area of numerical series processing using digital filters\nUse computer applications for basic digital processing.\nWork autonomously.\nWork cooperatively.\n\nContent\n1. Signals and discrete systems\n\nSignals: properties, transformations and basic signals\nSystems: properties, basic systems\nConvolution\nDescription of systems using finite difference equations\n2. Frequency representation\n\nFourier transform (FT): definition, properties, convolution theorem\nDiscrete Fourier Transform (DFT): definition, properties, circular convolution\nCorrelation and spectrum\nDecimation and interpolation\n3. Sampling and reconstruction\n\nPeriodic sampling\nSampling representation in the frequency domain\nReconstruction of limited band signals: Nyquist Theorem\nModification of the sampling frequency\n4. Representation of signals and systems in the Z domain\n\nThe Z-transform: definition and properties\nThe inverse Z-transform\nFrequency response and transfer function\n5. System analysis\n\nInverse, minimum-phase and all-pass systems\nLinear phase systems\nIntroduction to the design of IR and IIR filters" . . "Presential"@en . "TRUE" . . "Signal Processing"@en . . . . . . . . . . . . . . . . . . . . . . . . . "Bachelor in Telecommunication Systems Engineering"@en . . "https://www.uab.cat/web/estudiar/ehea-degrees/general-information/computer-engineering-telecommunication-systems-engineering-1216708259085.html?param1=1345654047869" . "327"^^ . "Presential"@en . "The fast-paced technological evolution and advances in globalisation have made the information and communication technologies (ICTs) present in almost all of our personal and also professional activities. The union of concepts such as information technology, internet and telecommunications is a reality demanding the knowledge of professionals capable of working in all three areas. For this reason, the UAB offers a double degree in which students can receive integrated training leading to two diplomas in five years.\n\nStudents of the double degree in Computer Engineering (Specialisation in Information Technologies) + Telecommunication Systems Engineering will receive training in both the subjects belonging to each degree and interdisciplinary training to help successfully face the professional challenges of the ICTs and acquire a highly valued versatility with which to stand out from other professionals in the sector.\n\nThe close relation with advanced technological and research centres of both local and international prestige, and with leading companies from the ICT sector, facilitates student participation in high quality work placements and a successful entry into the labour market."@en . . . . "5"@en . "FALSE" . . . "Bachelor"@en . "Both" . "1199.90" . "Euro"@en . "Not informative" . "Recommended" . "no data"@en . "no data" . "FALSE" . "Midstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .